EP1681790B1 - Dispositif et méthode pour transmettre des données de l'information dans un système de communication sans fil - Google Patents
Dispositif et méthode pour transmettre des données de l'information dans un système de communication sans fil Download PDFInfo
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- EP1681790B1 EP1681790B1 EP06000613A EP06000613A EP1681790B1 EP 1681790 B1 EP1681790 B1 EP 1681790B1 EP 06000613 A EP06000613 A EP 06000613A EP 06000613 A EP06000613 A EP 06000613A EP 1681790 B1 EP1681790 B1 EP 1681790B1
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- H04L1/16—Arrangements for detecting or preventing errors in the information received by using return channel in which the return channel carries supervisory signals, e.g. repetition request signals
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Definitions
- the present invention generally relates to a broadband wireless access (BWA) communication system, and more particularly to an apparatus and method for transmitting information data including control information and data in an adaptive antenna system (AAS) of a broadband wireless communication system.
- BWA broadband wireless access
- AAS adaptive antenna system
- the IEEE 802.16a and 802.16e communication systems use orthogonal frequency division multiplexing and/or orthogonal frequency division multiple access (OFDM/OFDMA) to support a broadband transmission network for a physical channel of the wireless MAN system.
- the IEEE 802.16a communication system considers a state in which a subscriber station (SS) is fixed. In other words, the IEEE 802.16a communication system considers only a single cell structure, and not SS mobility. However, the IEEE 802.16e communication system is used to support SS mobility in the IEEE 802.16a communication system.
- An SS with mobility is referred to as a mobile station (MS).
- the IEEE 802.16e communication system extends a cell service area using multiple antennas and uses a space division multiple access (SDMA) scheme for increasing a total capacity.
- SDMA space division multiple access
- AAS uplink adaptive antenna system
- CQI channel quality information
- a base station generates beams using a correlation between spatial channels estimated through preambles such that interference between users, i.e., MSs, can be minimized.
- MSs interference between users
- the beams are generated using the correlation, interference of signals of the MSs interfering with other neighbor MSs is reduced, such that data can be correctly decoded.
- FIG 1 schematically illustrates a broadband wireless communication system using a conventional SDMA scheme.
- a BS 101 allocates, to different MSs, identical time and frequency resources to be simultaneously used in a first spatial channel transmitted through a first beam 102 and a second spatial channel transmitted through a second beam 103.
- the BS 101 generates a plurality of spatially divided beams, for example, the first beam 102 and the second beam 103.
- FIG. 2 schematically illustrates the frame structure of the conventional broadband wireless communication system.
- a frame is divided into a downlink (DL) frame 201 and an uplink (UL) frame 202.
- the DL frame 201 includes a DL preamble region, a frame control header (FCH) region, a DL-MAP region, a UL-MAP region, a region of a plurality of AAS preambles and a region of a plurality of DL Bursts.
- FCH frame control header
- the UL frame 202 includes a region of a plurality of AAS preambles and a region of a plurality of UL Bursts.
- the conventional broadband wireless communication system transmits an AAS private MAP in a DL message to support the AAS.
- the AAS private MAP (hereinafter, the private MAP) includes allocation information and AAS frame configuration information for a specific user.
- the AAS private MAP message defined in the broadband wireless communication system defines information about DL and UL band allocation regions in the next frame to be demodulated by a specific MS and defines control information including system operational information for the AAS.
- This control information is connected to a data burst in an information bit level in the current frame for efficient transmission.
- the control information and the data burst are transmitted through an antenna after undergoing a coding and modulation process in an identical level and a beamforming process.
- FIG. 3 schematically illustrates a conventional process for transmitting a private MAP message.
- FIG. 3 illustrates an example in which a DL-MAP 310 of the n-th frame (Frame n) designates a private MAP 320 of an AAS zone.
- the private MAP 320 is configured by AAS_Private_DL-MAP for designating a DL allocation region and AAS_Private_UL-MAP for designating a UL allocation region.
- AAS_Private_DL-MAP and AAS_Private_UL-MAP designate a DL allocation region 330 and a UL allocation region 340 of the Frame n+1, respectively.
- a DL frame includes a DL-MAP message corresponding to a message for describing all resource allocations in the frame. Because system common control information is transmitted in the DL-MAP message, it is broadcast to all MSs without directivity.
- a DL/UL AAS zone corresponds to a zone in which the BS uses an adaptive antenna for forming a directional beam on an MS-by-MS basis, and is defined in the DL-MAP message in an OFDM symbol unit.
- the private MAP message indicates allocation information on the MS-by-MS basis in the AAS zone. If the private MAP is first used, it is pointed to in the DL-MAP transmitted in a non-AAS zone. That is, the private MAP 320 of FIG. 3 is pointed to in the DL-MAP 310.
- the MS After receiving and decoding the private MAP 320, the MS demodulates and decodes the DL allocation region 330 in the (n+1)-th fFrame n+1. Through these operations, the MS separates the DL allocation region 330 into a private MAP burst 331 containing allocation information of the Frame n+2 in the information bit level and a traffic data burst 332 of the Frame n+1. Moreover, the MS transmits a UL data burst 341 through the UL allocation region 340.
- FIG. 4 is a block diagram schematically illustrating the structure of the conventional transmitter for transmitting a private MAP in a broadband wireless communication system.
- the transmitter includes a channel encoder 410, a symbol mapper 420, a beamformer 425, a plurality of serial-to-parallel (S/P) converters 430, a subchannel allocator 440, a plurality of inverse fast Fourier transform (IFFT) processors 450, a plurality of parallel-to-serial (P/S) converters 460, a plurality of guard interval (GI) inserters 470, a plurality of digital-to-analog (D/A) converters 480 and a plurality of radio frequency (RF) processors 490.
- IFFT inverse fast Fourier transform
- P/S parallel-to-serial
- GI guard interval
- D/A digital-to-analog
- RF radio frequency
- allocation information 400 of a private MAP message 401 and a data burst 402 to be transmitted is input to the channel encoder 410.
- the channel encoder 410 encodes the allocation information 400 in a preset coding scheme and then outputs the encoded allocation information to the symbol mapper 420.
- the coding scheme may be all kinds of encoding scheme, e.g., a turbo coding or convolutional coding scheme based on a coding rate.
- the symbol mapper 420 modulates encoded information bits output from the channel encoder 410 on the basis of a preset modulation scheme, generates a modulated symbol and outputs the modulated symbol to the beamformer 425.
- the modulation scheme is a Quadrature Phase Shift Keying (QPSK) scheme, a Quadrature Amplitude Modulation (QAM) scheme or a 16-QAM scheme.
- the transmitter modulates and encodes the allocation information 400 configured by one packet, i.e., the private MAP message 401 and the data burst 402, in an identical modulation and coding scheme (MCS) level.
- MCS modulation and coding scheme
- the beamformer 425 forms beams to be transmitted through a plurality of adaptive antennas, and outputs modulated symbols corresponding to the formed beams to the S/P converters 430.
- the S/P converters 430 receive the modulated symbols, convert the received modulated symbols in a parallel fashion, and output the parallel symbols to the IFFT processors 450.
- the subchannel allocator 440 allocates subchannels to the modulated symbols in a subchannel allocation scheme based system setup, and outputs an allocation result to the IFFT processors 450.
- the IFFT processors 450 receive the modulated symbols output from the S/P converters 430, perform N-point IFFTs and output IFFT signals to the P/S converters 460.
- the P/S converters 460 receive the signals output from the IFFT processors 450, convert the received signals in a serial fashion and output the serial signals to the GI inserters 470.
- the D/A converters 480 receive the time domain OFDM signals from the GI inserters 470, convert the received time domain OFDM signals to analog signals and output the analog signals to the RF processors 490.
- the RF processors 490 convert the signals output from the D/A converters 480 to RF signals such that the RF signals can be transmitted to air.
- the RF processors 490 transmit the RF signals to air through transmit (Tx) antennas.
- MSs When receiving the allocation information 400 from the BS, MSs, for example, MS 0 and MS 1, separate the private MAP message 401 and the data burst 402 in an information bit level by performing identical demodulation and decoding operations on the allocation information 400, i.e., the private MAP message 401 and the data burst 402.
- the MSs When receiving a signal from the BS's transmitter, the MSs recover an information bit stream by demodulating and decoding a DL allocation region in a demodulation and decoding scheme that is the inverse of the modulation and coding scheme applied in the BS. Then, the MSs separate, from the recovered information bit stream, system configuration change information, control information associated with as an UL/DL band allocation region of the next frame, and a DL data burst transmitted in the current frame.
- control information and the DL data burst have the same coverage according to the private MAP message transmission scheme.
- variation in a wireless environment may occur due to a channel quality measurement error and report delay. Therefore, a problem arises wherein important control information such as system configuration change information may not be received.
- US 2004/095953 A1 discloses a radio terminal, a module for such a unit and method for transmitting associated control channels, wherein the method is intended to improve the quality of control signaling based on signaling messages controlling speech or data transmission over an air interface between at least two radio terminals of a radio communication system.
- the speech or data is transmitted in at least one traffic channel of the radio communication system, wherein the signaling messages are transmitted in control channels associated with the at least one traffic channel.
- SACCH slow associated control channels
- FACCH fast associated control channels
- WO 02/41520 A discloses an improved framing for an adaptive modulation communication system.
- the key objective of this wireless communication system is to provide communication tunnels on demand between a plurality of consumer subscriber units and their respective base stations in order to connect the subscriber unit user with the fixed network infrastructure.
- a downlink subframe transmits control data along with down link data intended for one or more terminals.
- Downlink data symbols are used for transmitting data to the terminals.
- the symbols may be grouped by a PHY mode, terminal identification and user ID: For example, the downlink data symbols are grouped by PHY modes. Thus, these symbols destined for terminals that are scheduled to received during the PHY modes where modulated using the same PHY mode.
- each time block is transmitted in a predefined modulation sequence using a scheduling approach.
- any one or more of the PHY modes may be present.
- An exemplary downlink map can include a sequence of 20 bit entries. For example, 4 bits can contain a Downlink Interval Usage Code (DIUC) entry.
- the DIUC defines the downlink PHY mode for each PHY mode in the downlink data.
- the DIUC can indicate the PHY mode (i.e. modulation, FEC) and also whether the PHY mode is preceded by a preamble (TDMA) or not (TDM).
- a modulator reads the FEC encoded data and FEC encoded control information from a frame control FEC encoder, and modulates the encoded data and control information onto carriers in OFDM symbols in accordance with conventional PFDM modulation techniques.
- a TX configuration unit receives the control information from a PHY-to-MAC I/F. This control information includes information about the channel over which data is to be transmitted from the MAC interface. The TX configuration unit uses this information to select an appropriate channel map from the TX channel maps a memory. The selected channel map specifies a transmission mode, as well as a modulation type for all carriers and set of carriers to be used for the transmission of the data, and therefore specifies OFDM symbol block sizes associated with the data transmission.
- the present invention has been designed to solve the above and other problems occurring in the prior art. Therefore, it is the object of the present invention to provide an improved apparatus and improved method for transmitting and receiving a data burst and control information including a private MAP for each user through different modulation and coding schemes in a broadband wireless communication system.
- a method for transmitting and receiving information data in a wireless communication system including: separating information data to be transmitted from a base station into control information and data, applying different modulation and coding schemes to the control information and the data, and transmitting the information data to an associated mobile station; and identifying the modulation and coding schemes of the information data received from the base station in the mobile station, and demodulating a total of the information data according to the modulation and coding schemes, or independently demodulating the control information and the data according to the modulation and coding schemes.
- a method for transmitting allocation information of an adaptive antennas system (AAS) zone in an AAS including separating control information and downlink data to be transmitted to a mobile station, performing different modulation and coding processes for the control information and the data, and transmitting, to the mobile station, the control information and the data to which the different modulation and coding processes have been applied.
- AAS adaptive antennas system
- a method for receiving allocation information of an adaptive antenna system (AAS) zone in an AAS including identifying modulation and coding schemes of a control information region and an user data region from a total allocation region of information data transmitted from a base station, decoding control information according to a first modulation and coding scheme allocated to the control information of the allocation region, and decoding new data according to a second modulation and coding scheme allocated to the data of the allocation region.
- AAS adaptive antenna system
- a system for transmitting and receiving allocation information of an adaptive antenna system (AAS) zone in a wireless communication system including a base station for dividing information data to be transmitted to a mobile station into control information and data, applying different modulation and coding schemes to the control information and the data, and transmitting the information data to the mobile station, and the mobile station for identifying the modulation and coding schemes of the information data received from the base station, and demodulating a total of the information data according to the modulation and coding schemes, or independently demodulating the control information and the data according to the modulation and coding schemes.
- AAS adaptive antenna system
- the present invention proposes an apparatus and method for transmitting data in a broadband wireless access (BWA) communication system. Specifically, the present invention relates to an apparatus and method for transmitting system operational information and band allocation information in an adaptive antenna system (AAS) of a broadband wireless communication system.
- AAS adaptive antenna system
- the present invention also relates to a method for transmitting, to a specific user or mobile station (MS), data and a private MAP serving as an operational message including system operational information and band allocation information from a base station (BS) system based on the AAS defined in a conventional broadband wireless communication system.
- MS mobile station
- BS base station
- the present invention relates to an apparatus and method for transmitting and receiving a private MAP and data processed in different modulation and coding scheme (MCS) levels.
- MCS modulation and coding scheme
- FIG. 5 is a block diagram schematically illustrating a transmitter structure of a broadband wireless communication system in accordance with the present invention.
- FIG. 5 illustrates an MCS for a private MAP in accordance with the present invention.
- a structure of the input stage of the transmitter illustrated in FIG. 4 is separated such that a private MAP transmission concept illustrated in FIG. 5 can be explained.
- a total allocation region 530 in accordance with an embodiment of the present invention has the same function as the total allocation region 330 of FIG. 3.
- the private MAP message 401 and the data burst 402 of FIG. 4 are combined into one unit as in the total allocation region 330 of FIG. 3, and are conventionally processed in the same MCS level.
- the present invention processes a private MAP message 501 and a data burst 502 in different modulation and coding processes.
- a private MAP region and an user data region are separated from a total allocation region 530 of FIG. 5, and different MCS levels are allocated to the private MAP region and the user data region.
- the private MAP region and the user data region in the different MCS levels are transmitted.
- the private MAP message 501 undergoes the first modulation and coding through a channel encoder 510 and a symbol mapper 520, while the data burst 502 undergoes the second modulation and coding through a channel encoder 512 and a symbol mapper 522.
- a process subsequent to the channel encoders 510 and 512 and the symbol mappers 520 and 522 is the same as described with reference to FIG. 4, its detailed description is omitted here.
- the channel encoders 510 and 512 and the symbol mappers 520 and 522 are conceptually separated from each other for a better explanation of the present invention.
- the channel encoders 510 and 512 or the symbol mappers 520 and 522 are preferably provided in one configuration as illustrated in FIG. 4.
- the present invention is not limited to this structure.
- the channel encoder and the symbol mapper for the private MAP and the channel encoder and the symbol mapper for the data burst can be separately configured as illustrated in FIG. 5.
- Table 1 shows features in accordance with the present invention. From Table 1, a beamforming gain is absent because allocation information based on a conventional DL-MAP is transmitted in a non-AAS zone and a protection level for the allocation information cannot be controlled on an MS-by-MS basis. Beamforming gains for both the allocation information and the data burst in the private MAP transmitted in the AAS zone can be obtained, and a protection level of the allocation information is the same as that of the data burst. In accordance with the present invention, the allocation information undergoes a more robust MCS than the data burst of the private MAP.
- CID Included 1 1 CID included.
- DCD Count Included 1 1 DCD Count included.
- the DCD count is expected to be the same as in the broadcast map that initiated the private map chain.
- the DCD count can be included in the private map if it changes.
- PHY modification Included 1 1 included.
- CQICH Control Indicator 1 1 CQICH control information included.
- Encoding Mode 2 Encoding for DL traffic burst 0b00: No HARQ 0b01: Chase Combining HARQ 0b10: Incremental Redundancy HARQ 0b11: Conv.
- Zone symbol offset 8 The offset of the OFDMA symbol in which the zone containing the burst starts, measured in OFDMA symbols from beginning of the downlink frame referred to by the Frame Offset.
- OFDMA Symbol Offset 8 Starting symbol offset referenced to DL preamble of the downlink frame specified by the Frame Offset. If (current zone permutation is AMC, TUSC1 or TUSC2) ⁇ AMC (2 x 3 type), TUSC1 and TUSC2 all have triple symbol slot lengths
- subchannels 6 Else ⁇ Subchannel offset 6 No. OFDMA Symbols 7 No. subchannels 6 ⁇ DIUC/N EP 4 DIUC for Encoding Mode 0b00, 0b01, 0b11 N EP for Encoding Mode 0b 10 If (HARQ Enabled) ⁇ Encoding Mode 0b00, 0b 10, 0b 11 DL HARQ ACK bitmap 1 HARQ ACK for previous UL burst ACK Allocation Index 6 ACK channel index within HARQ ACK region ACID 4 HARQ channel ID AI_SN 1 HARQ Seq.
- the AAS_Private_DL-MAP message includes fields of Separate MCS Enabled, Duration, and Repetition Coding Indication.
- the Separate MCS Enabled field indicates that modulation and coding processes are applied for the private MAP and the data burst separated from each other.
- the Duration field indicates the total number of slots allocated to the private MAP for a sum of AAS_Private_DL-MAP and AAS Private UL-MAP.
- the DIUC field indicates a scheme for processing a physical channel of a DL data burst to be transmitted, such as an MCS. That is, the DIUC field indicates an MCS level such as QPSK 3/4 or 16-QAM 1/2.
- FIG. 6 a description of an allocation region in an identical permutation zone for configuring a logical subchannel is used when an allocation region of a DL frame is designated by start coordinates (k o , s o ), the number K of symbols, and the number S of subchannels in a two-dimensional plane configured by a logical subchannel index s and a symbol index k.
- the total allocation region 530 of FIG. 5 corresponds to the allocation region 600 of FIG. 6.
- the allocation region 600 When the allocation region 600 is designated as described above, it can be divided in a slot unit 610 corresponding to a time-frequency space of one subchannel. Because a DL allocation region designated in the DL AAS private MAP is separated into a private MAP region and an user data region as illustrated in FIG. 5 in accordance with the present invention, some of the slots for the allocation region are used to transmit the fields for indicating the number of slots belonging to the private MAP region, and a downlink interval usage code (DIUC) and Repetition Coding Indication associated with the MCS, and the remaining slots are used to transmit data.
- DIUC downlink interval usage code
- Repetition Coding Indication associated with the MCS
- a specific permutation region is divided in a symbol unit. Slots of an associated permutation region are arranged in the time priority in one dimension, and are indicated by a slot offset and slot duration in an AAS zone. Because a private MAP is transmitted only in the DL in the present invention, AAS_Private_UL-MAP is not varied. A detailed description of the AAS_Private_UL-MAP message is omitted here.
- a plurality of transmission opportunities is given.
- the MS accumulates reception energy through demodulation and decoding for the plurality of transmission opportunities, determines whether reception is successful, and makes a retransmission request until the reception is successfully performed.
- the AAS private MAP message is conventionally transmitted through the same MCS as that for the data burst, a probability in which an error occurs in HARQ control information associated with an associated data burst becomes high when the MS receives the private MAP message and the data burst, such that an HARQ operation is unstable. As a result, a gain of the HARQ operation cannot be obtained.
- the present invention transmits the control information independent of the data burst, thereby stably transmitting the control information and ensuring an HARQ gain of the data burst.
- FIG. 7 illustrates the coverage of control information and a data burst in accordance with the present invention.
- FIG. 7 illustrates a beam pattern 700 of a DL MAP at the time of nondirectional transmission and beam patterns 710 and 720 at the time of directional transmission.
- Reference numerals 730 to 760 denote coverage, respectively.
- the coverage can be adjusted according to an improved private MAP to which a more robust modulation and coding level than that for the data burst is applied in accordance with the present invention, such that control information can be stably transmitted.
- FIG. 8 is a flowchart illustrating a reception process in an MS of the broadband wireless communication system in accordance with the present invention. For convenience of explanation, it is assumed that one allocation region, for example, the region 530 of FIG. 5, is allocated to a DL AAS zone.
- the MS receives allocation information of an AAS zone transmitted in the current frame in step 801 and proceeds to step 803. In step 803, the MS determines whether the received allocation information is DL or UL allocation information.
- the MS demodulates a total burst region in step 811 and then proceeds to step 813.
- the MS separates the private MAP information and the traffic data in an information bit level in step 813 and then proceeds to step 815.
- the MS independently demodulates the private MAP region and the user data region and then proceeds to step 815.
- the MS demodulates the private MAP region in step 807 and demodulates the user data region in step 809.
- the private MAP region and the traffic user data region are independently demodulated. For example, assuming that the number of subchannels allocated to the private MAP and the user data region correspond to Slot 1 and Slot 2 and MCSs applied to the private MAP and the traffic data are MCS 1 and MCS 2, respectively, the MS demodulates an associated burst region mapped to the MCS set in the BS, thereby obtaining traffic data received in the current frame and allocation information of the next frame.
- the present invention provides an apparatus and method for transmitting information data in a wireless communication system that apply different modulation and coding schemes (MCSs) to an adaptive antenna system (AAS) private MAP message of control information and a data burst when a base station system using adaptive antenna technology defined in a broadband wireless communication system sends an operational message to a specific mobile station, thereby more stably transmitting the control information.
- MCSs modulation and coding schemes
- AAS adaptive antenna system
- the effect of stability can be further increased in a system for aggressively transmitting a data burst in a communication system using a hybrid automatic retransmission request (HARQ) scheme.
- HARQ hybrid automatic retransmission request
- the coverage of a base station can be adjusted according to an improved private MAP to which a more robust modulation and coding level than that for the data burst is applied, such that stable control information can be transmitted.
- the various modulation and coding processes are performed for the private MAP message and the data burst, such that a coverage extension gain can be obtained through a directional beamforming gain, and control information can be stabilized.
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Claims (27)
- Procédé pour émettre de l'information d'allocation d'une zone de système d'antennes adaptatif dans un système d'antennes adaptatif, AAS pour "Adaptative Antenna System", comprenant les étapes suivantes :séparer une information de commande et des données de liaison descendante à émettre vers une station mobile ;effectuer des processus de modulation et de codage différents pour l'information de commande et les données de liaison descendante ; etémettre, vers la station mobile, l'information de commande et les données de liaison descendante auxquelles les processus de modulation et de codage différents ont été appliqués.
- Procédé selon la revendication 1, dans lequel l'étape de séparation comprend les étapes suivantes :diviser une région d'allocation totale en une unité de créneau correspondant à un espace temps - fréquence ;diviser une région d'allocation de liaison descendante désignée dans l'information de commande, en une région MAP privée et une région de données d'utilisateur ;allouer à la région MAP privée un nombre de créneaux pour la configuration de système, parmi tous les créneaux de la région d'allocation totale ; etallouer à la région de données d'utilisateur un nombre de créneaux restants, à l'exception des créneaux alloués à la région MAP privée, parmi tous les créneaux dans la région d'allocation totale.
- Procédé selon la revendication 1, dans lequel l'étape consistant à effectuer les processus de modulation et de codage comprend les étapes suivantes :diviser une région d'allocation totale de données d'information à émettre vers la station mobile entre l'information de commande et les données de liaison descendante ;allouer une première technique de modulation et de codage à l'information de commande de la région d'allocation totale ; etallouer une deuxième technique de modulation et de codage aux données d'information de la région d'allocation totale.
- Procédé selon la revendication 1, dans lequel l'information de commande comprend un message MAP privé d'AAS.
- Procédé selon la revendication 4, dans lequel le message MAP privé comprend un champ pour indiquer qu'une salve MAP privée et une salve de données sont séparées, et une modulation et un codage sont appliqués à la salve MAP privée séparée et à la salve de données.
- Procédé selon la revendication 4, dans lequel le message MAP privé comprend un champ pour indiquer un nombre de créneaux appartenant à la région MAP privée, parmi tous les créneaux de la région d'allocation totale.
- Procédé selon la revendication 4, dans lequel le message MAP privé comprend un champ pour indiquer une technique pour traiter un canal physique d'une salve de données de liaison descendante.
- Procédé selon la revendication 4, dans lequel le message MAP privé comprend un champ d'Indication de Codage de Répétitions pour appliquer une technique de modulation et de codage en conformité avec une situation de système.
- Procédé selon la revendication 1, comprenant en outre l'étape suivante:émettre l'information de commande et une salve de données qui ont subi les processus de modulation et de codage différents, dans une configuration de faisceau identique.
- Procédé pour recevoir une information d'allocation d'une zone de système d'antennes adaptatif dans un système d'antennes adaptatif, AAS, comprenant les étapes suivantes :identifier des techniques de modulation et de codage d'une région d'information de commande et d'une région de données d'utilisateur, dans une région d'allocation totale de données d'information émises par une station de base (101) ;décoder (807) l'information de commande conformément à une première technique de modulation et de codage allouée à l'information de commande de la région d'allocation ; etdécoder (809) de nouvelles données conformément à une deuxième technique de modulation et de codage allouée à des données de la région d'allocation.
- Procédé selon la revendication 10, dans lequel l'étape d'identification des techniques de modulation et de codage comprend les étapes suivantes :recevoir (801) dans une station mobile une information d'allocation d'une zone d'AAS émise dans une trame présente ;déterminer (803) si l'information d'allocation est une information d'allocation de liaison descendante ou de liaison montante ;identifier les techniques de modulation et de codage appliquées à la région de données d'utilisateur et à la région d'information de commande de l'information d'allocation de liaison descendante, si l'information d'allocation reçue est l'information d'allocation de liaison descendante ; etidentifier que la région d'information de commande et la région de données d'utilisateur sont mutuellement séparées et que des techniques de modulation et de codage différentes sont appliquées.
- Procédé selon la revendication 11, comprenant en outre l'étape suivante :émettre (817) une salve de données de liaison montante vers la station de base (101) si l'information d'allocation est l'information d'allocation de liaison montante.
- Procédé selon la revendication 11, comprenant en outre l'étape suivante :actualiser (815) l'information d'allocation d'une trame suivante après démodulation d'une région de salve totale, lorsqu'il est identifié que la région d'information de commande et la région de données d'utilisateur sont configurées en un seul groupe, et une technique de modulation et de codage identique est appliquée.
- Procédé selon la revendication 10, dans lequel l'étape de décodage comprend les étapes suivantes :séparer (805) la région d'information de commande et la région de données d'utilisateur lorsqu'il est identifié que des techniques de modulation et de codage différentes sont allouées à la région d'information de commande et à la région de données d'utilisateur ;décoder (807) l'information de commande conformément à une première technique de modulation et de codage fixée dans la région d'information de commande séparée ;décoder (809) les nouvelles données conformément à une deuxième technique de modulation et de codage fixée dans la région de données d'utilisateur séparée ; etactualiser (815) l'information d'allocation d'une trame suivante après le décodage de l'information de commande et des nouvelles données.
- Système pour émettre et recevoir de l'information d'allocation d'une zone de système d'antennes adaptatif, AAS, dans un système de communication sans fil, comprenant :une station de base (101) pour séparer des données d'information à émettre vers une station mobile en information de commande et données d'utilisateur, appliquer des techniques de modulation et de codage différentes à l'information de commande et aux données d'utilisateur, et émettre les données d'information vers la station mobile ; etla station mobile pour identifier les techniques de modulation et de codage des données d'information reçues de la station de base, et démoduler une totalité des données d'information conformément aux techniques de modulation et de codage, ou démoduler indépendamment l'information de commande et les données d'utilisateur conformément aux techniques de modulation et de codage.
- Système selon la revendication 15, dans lequel la station de base (101) divise une région d'allocation totale des données d'information à émettre vers la station mobile en l'information de commande et en les données d'utilisateur, alloue une première technique de modulation et de codage à l'information de commande de la région d'allocation totale, et alloue une deuxième technique de modulation et de codage aux données d'utilisateur de la région d'allocation totale.
- Système selon la revendication 15, dans lequel la station mobile identifie une région d'allocation totale des données d'information émises de la station de base, démodule l'information de commande conformément à une première technique de modulation et de codage allouée à l'information de commande de la région d'allocation, et démodule les données d'utilisateur conformément à une deuxième technique de modulation et de codage allouée aux données d'utilisateur de la région d'allocation.
- Système selon la revendication 15, dans lequel l'information de commande comprend un message MAP privé d'AAS.
- Système selon la revendication 18, dans lequel le message MAP privé comprend un champ d'Existence de Techniques de Modulation et de Codage (MCS pour "Modulation and Coding Scheme") Séparées, pour indiquer que les techniques de modulation et de codage sont allouées.
- Système selon la revendication 18, dans lequel le message MAP privé comprend un champ de Durée pour indiquer un nombre de créneaux alloués au message MAP privé.
- Système selon la revendication 20, dans lequel le nombre de créneaux comprend le nombre de sous-canaux alloués à une région d'information de commande et une région de données d'utilisateur d'une région d'allocation totale.
- Système selon la revendication 18, dans lequel le message MAP privé comprend un champ de Code d'Usage d'Intervalle de Liaison Descendante (DIUC pour "Downlink Interval Usage Code") pour indiquer un niveau de modulation et de codage d'une salve de données de liaison descendante à émettre.
- Système selon la revendication 18, dans lequel le message MAP privé comprend un champ d'Indication de Codage de Répétitions pour appliquer une technique de modulation et de codage conformément à une situation de système.
- Système selon la revendication 15, dans lequel la station de base communique à la station mobile la division entre l'information de commande et les données d'utilisateur au moyen d'un message MAP privé d'AAS.
- Procédé pour émettre de l'information d'allocation d'un système d'antennes adaptatif, AAS, dans un système de communication, comprenant les étapes suivantes :créer, par une station de base (101), un message MAP de liaison descendante privé d'AAS, incluant un champ d'Existence de MCS Séparées, pour indiquer si des techniques de modulation et de codage sont appliquées différemment à une information de commande et à une donnée d'utilisateur, ou non ; etémettre vers une station mobile le message MAP de liaison descendante privé d'AAS.
- Procédé selon la revendication 25, dans lequel le message MAP de liaison descendante privé d'AAS comprend un champ d'indication de codage de répétitions pour indiquer une technique de codage basée sur un nombre de répétitions d'une technique de codage fixée, lorsque le champ d'Existence de MCS Séparées indique que les techniques de modulation et de codage sont appliquées différemment à l'information de commande et aux données d'utilisateur.
- Procédé selon la revendication 25, dans lequel le message MAP de liaison descendante privé d'AAS comprend un champ de Code d'Usage d'Intervalle de Liaison Descendante (DIUC pour "Downlink Interval Usage Code") pour indiquer un niveau de modulation et de codage, lorsque le champ d'Existence de MCS Séparées indique que les techniques de modulation et de codage sont appliquées différemment à l'information de commande et aux données d'utilisateur.
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- 2006-01-12 DE DE602006000008T patent/DE602006000008T2/de active Active
- 2006-01-12 CN CNA2006800067240A patent/CN101133613A/zh active Pending
- 2006-01-12 JP JP2007551198A patent/JP2008527901A/ja not_active Withdrawn
- 2006-01-12 WO PCT/KR2006/000135 patent/WO2006075886A1/fr active Application Filing
- 2006-01-12 AU AU2006205312A patent/AU2006205312A1/en not_active Abandoned
- 2006-01-12 EP EP06000613A patent/EP1681790B1/fr active Active
- 2006-01-12 RU RU2007126640/09A patent/RU2007126640A/ru not_active Application Discontinuation
- 2006-01-12 US US11/330,756 patent/US20060153227A1/en not_active Abandoned
- 2006-01-12 KR KR1020060003502A patent/KR100790139B1/ko not_active IP Right Cessation
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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RU2573249C2 (ru) * | 2011-04-01 | 2016-01-20 | Хуавэй Текнолоджиз Ко., Лтд. | Система и способ передачи и приема каналов управления в системе связи |
US9338730B2 (en) | 2011-04-01 | 2016-05-10 | Futurewei Technologies, Inc. | System and method for transmitting and receiving control channels |
US9730200B2 (en) | 2011-04-01 | 2017-08-08 | Futurewei Technologies, Inc. | System and method for transmission and reception of control channels |
US10638464B2 (en) | 2011-04-01 | 2020-04-28 | Futurewei Technologies, Inc. | System and method for transmission and reception of control channels in a communications system |
US10764876B2 (en) | 2011-04-01 | 2020-09-01 | Futurewei Technologies, Inc. | System and method for transmitting and receiving control channels |
Also Published As
Publication number | Publication date |
---|---|
CN101133613A (zh) | 2008-02-27 |
US20060153227A1 (en) | 2006-07-13 |
KR20060082434A (ko) | 2006-07-18 |
KR100790139B1 (ko) | 2008-01-02 |
RU2007126640A (ru) | 2009-01-20 |
WO2006075886A1 (fr) | 2006-07-20 |
JP2008527901A (ja) | 2008-07-24 |
DE602006000008D1 (de) | 2007-07-12 |
DE602006000008T2 (de) | 2007-09-13 |
EP1681790A1 (fr) | 2006-07-19 |
CA2594387A1 (fr) | 2006-07-20 |
AU2006205312A1 (en) | 2006-07-20 |
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